US9072991B2ActiveUtilityPatentIndex 80
Conductive filter media
Est. expiryApr 24, 2032(~5.8 yrs left)· nominal 20-yr term from priority
B01D 39/14B01D 39/12B01D 2239/0241B01D 2201/50B01D 39/1623D04H 1/46
80
PatentIndex Score
18
Cited by
53
References
23
Claims
Abstract
The above objectives are accomplished according to the present invention by providing a filter medium for operating environments needing static electricity dissipation to help reduce ignition sources comprising: a substrate of non-woven felt including a polymeric fiber; a conductive scrim having a grid of conductive filaments adjacent to said substrate layer; and, a top layer of non-woven felt including a polymeric fiber and copolymer fiber blend having a melt temperature greater than 100° C. wherein said substrate layer, said conductive scrim and said top layer are manufactured into said filter medium by mechanical web formation.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A filter medium for operating environments needing static electricity dissipation to help reduce ignition sources comprising:
a substrate layer of non-woven felt including a polymeric fiber;
a conductive scrim having a grid of conductive filaments adjacent to said substrate layer;
a top layer of non-woven felt including a polymeric fiber and copolymer fiber blend having a melt temperature greater than 100° C. wherein said substrate layer, said conductive scrim and said top layer are manufactured into said filter medium by mechanical web formation; and,
wherein the filter medium includes the physical property of having an electrical resistance less than 25,000 ohms when 250V is applied to said filter medium.
2. The filter medium of claim 1 wherein said top layer has a weight between 1.0 oz and 6.1 oz, and a bottom layer carried by said top layer has a weight between 1.0 oz and 6.1 oz and said scrim has a weight between 1.0 oz and 6.0 oz.
3. The filter medium of claim 1 wherein said top layer is between 35% and 46% of the total weight of said filter medium.
4. The filter medium of claim 1 wherein said scrim is in the range of 10% to 40% of the total weight of said filter medium.
5. The filter medium of claim 1 wherein said polymeric fiber includes material selected from the group consisting of: glass, polyester, polyolefin, olefin, acrylic, carbon, meta-aramid, para-aramid, polyamide, polyethylene, polypropylene, and any combination of these.
6. The filter medium of claim 1 wherein said filter medium has a stiffness in the range of 1500 mg to 8000 mg using a Gurley apparatus.
7. The filter medium of claim 1 wherein said substrate, scrim and top layer are pleated.
8. The filter medium of claim 1 wherein said scrim includes crisscrossing parallel filaments defining openings having an area of at least one cm 2 .
9. The filter medium of claim 1 wherein said grid includes material selected from the group consisting of: silver, copper, gold, aluminum, zinc, nickel, brass, bronze, iron, platinum, steel, lead, stainless steel, and any combination of these.
10. The filter medium of claim 9 wherein said filaments are carbon treated.
11. The filter medium of claim 1 wherein said copolymer includes a core member having a core melting point and a sheath member wherein said sheath member has a melting point temperature lower than said core melting point.
12. The filter medium of claim 11 wherein said core member and said sheath member are polyester.
13. The filter medium of claim 11 wherein said core member is polyester and said sheath member is a copolymer.
14. The filter medium of claim 1 wherein said filter medium includes the physical property that when it is heated above a softening point of a sheath included in said copolymer fiber blend thereby bonding to adjacent fibers.
15. The filter medium of claim 1 wherein said filter medium includes the physical property of an operational temperature is less than 150° C.
16. The filter medium of claim 1 wherein a denier of said polymertic fiber is between 0.7 and 10 denier.
17. A filter medium used for filters operating in environments needing static electricity dissipation to help reduce ignition sources comprising a conductive scrim having a grid of metal filaments disposed inside a non-woven felt wherein the filter medium includes the physical property of having an electrical resistance less than 25,000 ohms when 250V is applied to said filter medium.
18. The filter medium of claim 17 wherein said scrim is in the range of 10% to 40% of the total weight of said filter medium.
19. The filter medium of claim 17 wherein said filter medium has a stiffness in the range of 1500 mg to 8000 mg using a Gurley apparatus.
20. The filter medium of claim 17 wherein said substrate, scrim and top layer are pleated.
21. The filter medium of claim 17 wherein said scrim includes crisscrossing parallel filaments defining openings having an area of at least one cm 2 .
22. The filter medium of claim 17 wherein said grid includes material selected from the group consisting of: silver, copper, gold, aluminum, zinc, nickel, brass, bronze, iron, platinum, steel, lead, stainless steel, and any combination of these.
23. The filter medium of claim 21 wherein said filaments are carbon treated.Cited by (0)
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